JP2009110697A - Connector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a connector capable of surely performing engagement of an engagement protrusion of a plug with an engagement hole of a receptacle at reverse mounting of the plug. <P>SOLUTION: The connector is provided with a plug 10 and a receptacle 20. The receptacle 20 is provided with a housing H for holding a receptacle side terminal part 29 inside a cylindrical shielding cover 21 forming an opening 22, and is so structured that an engagement protrusion 11 provided at the plug 10 gets engaged with an engagement hole 28 provided at the receptacle 20 to maintain an insertion state when the plug 10 is inserted into the receptacle 20. The engagement hole 28 is set at a site opposed to a substrate 1 of the shielding cover 21, and a site of the shielding cover 21 where the engagement hole 28 is provided is structured to be positioned away from the substrate 1 by a set distance while being that the receptacle 20 is mounted on the substrate 1. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention includes a plug and a receptacle that is mounted on a substrate and has an opening into which the plug is inserted, and the receptacle holds a receptacle-side terminal portion inside a cylindrical shield cover that forms the opening. And an engaging projection provided on the plug is engaged with an engaging hole provided on the receptacle when the plug is inserted into the receptacle.

  A connector including a plug and a receptacle is used to connect various devices and a wiring pattern on a circuit board in various electric devices. For example, the device and the wiring pattern are connected by providing a plug at the tip of the wiring connected to the device, providing a receptacle on the wiring pattern of the circuit board, and inserting the plug into the receptacle. In the connector described in Patent Document 1, the receptacle has a housing that holds the receptacle-side terminal portion inside a cylindrical shield cover that forms the opening. The top surface of the receptacle is provided with an engagement hole that engages with an engagement protrusion provided on the plug when the plug is inserted from the opening of the receptacle. As a result, the plug is inserted into the receptacle, and the inserted state is maintained while the engagement protrusion of the plug is engaged with the engagement hole of the receptacle.

  Normally, the plug is arranged in a predetermined order within the plug so that a plurality of wires can be combined and connected to the receptacle. Similarly, in the receptacle-side terminal portion included in the receptacle, a plurality of terminals are arranged in the same order so as to be appropriately connected to the arranged wiring. In the receptacle, a plurality of terminals in the receptacle-side terminal portion may be arranged in the reverse order to the above order. In that case, the plug may be inverted and inserted into the receptacle (that is, the plug Can be implemented in reverse).

Japanese Patent No. 3966414

  In the connector described in Patent Document 1, when the plug is reversely mounted, it is necessary to provide the engagement hole provided on the top surface of the shield cover of the receptacle on the bottom surface side of the shield cover during normal mounting. That is, in normal mounting, the engagement protrusion of the plug engages on the top surface side of the shield cover of the receptacle. However, when reverse mounting is performed, the engagement protrusion of the plug is on the bottom surface side of the shield cover (that is, the board). Side). Therefore, the engagement protrusion of the plug interferes with the substrate, and there arises a problem that the engagement protrusion and the engagement hole cannot be reliably engaged.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a connector that can reliably engage the engagement protrusion of the plug with the engagement hole of the receptacle when the plug is reversely mounted. It is in.

In order to achieve the above object, the connector according to the present invention includes a plug and a receptacle that is mounted on a board and has an opening into which the plug is inserted, and the receptacle forms the opening. A cylindrical shield cover has a housing for holding a receptacle-side terminal portion. When the plug is inserted into the receptacle, an engagement protrusion provided on the plug is in an engagement hole provided in the receptacle. A connector configured to engage and maintain insertion;
The engagement hole is provided in a portion of the shield cover that faces the substrate,
In the state where the receptacle is mounted on the substrate, the portion of the shield cover where the engagement hole is provided is configured to be located at a set distance from the substrate.

According to the above characteristic configuration, even when the plug is inserted into the receptacle in the reverse mounting form and the engagement protrusion of the plug is engaged with the engagement hole of the shield cover, the engagement hole of the shield cover An interval is secured between the part where the protrusion is provided and the substrate so that the engaging protrusion does not interfere with the substrate.
Therefore, it is possible to provide a connector capable of reliably engaging the engagement protrusion of the plug with the engagement hole of the receptacle when the plug is reversely mounted.

  Another characteristic configuration of the connector according to the present invention is that the shield cover is a cylindrical body having a rectangular cross section, and a plurality of through-holes provided in the substrate with a plurality of notch pieces formed by notching the cylindrical body. The bottom surface of the shield cover is configured to be mounted relative to the substrate by being inserted and locked in each of the above.

  According to the above characteristic configuration, the receptacle can be reliably mounted on the substrate by locking the notch piece to the substrate.

  Another characteristic configuration of the connector according to the present invention is that a part of the notch piece is inserted into the board when the receptacle is mounted on the board by forming a base part of the notch piece thicker than a tip part. The point is that it is configured to do.

  According to the above characteristic configuration, not all of the notch pieces are inserted into the substrate, and there are portions that are not inserted into the substrate, and therefore, the shield cover is in a state of floating from the substrate only in the portions that are not inserted. As a result, even when the plug is inserted into the receptacle in the reverse mounting form and the engagement protrusion of the plug is engaged with the engagement hole of the shield cover, the engagement hole of the shield cover is provided. The space | interval which an engagement protrusion does not interfere with a board | substrate is ensured between the site | part which exists and a board | substrate.

  Another characteristic configuration of the connector according to the present invention is that, among the plurality of cutout pieces, the cutout piece formed on the opening side of the shield cover from the portion where the engagement hole is provided is: It is in the point formed by notching the surface different from the said engagement hole being provided.

If the cutout piece is formed by cutting out the same surface where the engagement hole is provided, the hole generated in the shield cover by cutting out the cutout portion from the shield cover It occurs on the same surface as it is formed. In that case, the notch piece is formed on the opening side of the shield cover from the portion where the engagement hole is provided, so that the engagement protrusion of the plug is engaged during the insertion of the plug into the receptacle. Before reaching the hole, there is a possibility that the cutout piece will be cut into the hole formed in the shield cover.
However, according to the above-described characteristic configuration, the notch piece formed on the opening side of the shield cover on the side closer to the opening portion than the portion where the engagement hole is provided cuts a surface different from that on which the engagement hole is provided. Such a problem does not occur because it is formed lacking. Therefore, the engagement protrusion of the plug and the engagement hole of the shield cover can be reliably engaged.

  Another characteristic configuration of the connector according to the present invention is that a spacer member is provided between the shield cover and the substrate.

  According to the above characteristic configuration, the shield cover is lifted from the substrate by the thickness of the spacer member. As a result, even when the plug is inserted into the receptacle in the reverse mounting form and the engagement protrusion of the plug is engaged with the engagement hole of the shield cover, the engagement hole of the shield cover is provided. The space | interval which an engagement protrusion does not interfere with a board | substrate is ensured between the site | part which exists and a board | substrate.

<First Embodiment>
The configuration of the connector of the first embodiment will be described below with reference to the drawings. The connector of the present embodiment includes a plug 10 and a receptacle 20 that is mounted on the substrate 1 and has an opening 22 into which the plug 10 is inserted. FIG. 1 is a perspective view of a receptacle 20 provided in the connector of the first embodiment. 2 is a front view of the receptacle 20, FIG. 3 is a side view of the receptacle 20, and FIG. 4 is a bottom view of the receptacle 20. FIG. 5 is a cross-sectional view of the receptacle 20 with the plug 10 inserted.

  As shown in FIGS. 1 to 5, the outer shape of the receptacle 20 is constituted by a shield cover 21 formed by bending a metal plate. The shield cover 21 is formed in a cylindrical body having a rectangular cross section, and houses a resin housing H therein. The housing H holds the receptacle-side terminal portion 29. The receptacle-side terminal portion 29 is held by the housing H so that one end portion is exposed inside the receptacle 20 and the other end portion is exposed outside the receptacle 20. Then, when the plug 10 is inserted from the opening 22 of the shield cover 21 and the plug 10 is pushed in all the way, the terminal portion (not shown) of the plug 10 and the receptacle-side terminal portion exposed inside the receptacle 20. 29 contacts. The receptacle-side terminal portion 29 exposed to the outside of the receptacle 20 is bonded to the circuit pattern formed on the substrate 1 with solder or the like.

The plug 10 has an engaging protrusion 11 that protrudes in a direction perpendicular to the direction of insertion into the receptacle 20. Although the description of the detailed configuration of the plug 10 is omitted, the engagement protrusion 11 is formed using resin or metal. The shield cover 21 constituting the receptacle 20 has an engagement hole 28 with which the engagement protrusion 11 of the plug 10 is engaged when the plug 10 is inserted into the receptacle 20. Therefore, as shown in FIG. 5, when the plug 10 is inserted into the receptacle 20, the engagement protrusion 11 of the plug 10 engages with the engagement hole 28 of the receptacle 20, and the insertion state is maintained. In addition, the contact state between the terminal portion of the plug 10 and the receptacle-side terminal portion 29 of the receptacle 20 is maintained.
An engagement hole 28 provided in the receptacle 20 is formed in a portion of the shield cover 21 that faces the substrate 1. That is, in the present embodiment, the engagement hole 28 is formed on the bottom surface 21 a of the shield cover 21.

  The shield cover 21 is provided with a plurality of (four in this embodiment) cutout pieces 23a, 23b, 23c, and 23d formed by cutting out the cylindrical body constituting the shield cover 21. These cutout pieces 23a, 23b, 23c, and 23d are inserted into the plurality of through holes 2 provided in the substrate 1 and locked. As a result, the bottom surface 21 a of the shield cover 21 (cylindrical body) constituting the receptacle 20 is mounted relative to the substrate 1.

In the present embodiment, the cutout pieces 23 a and 23 c are formed on the opening 22 side of the shield cover 21 with respect to the portion where the engagement hole 28 is provided. Further, the cutout pieces 23 a and 23 c are formed by cutting out side surfaces 21 b and 21 c perpendicular to the substrate 1 in the cylindrical body constituting the shield cover 21. The notches 23b and 23d are formed by notching the bottom surface 21a of the shield cover 21.
The notches 23b and 23d are formed at the rear end portion of the shield cover 21 where the housing H is located. The notch pieces 23b and 23d have base portions 25b and 25d formed thicker than the tip portions 24b and 24d. In the present embodiment, since the housing H abuts on the substrate 1 when the receptacle 20 is mounted on the substrate 1, the root portions 25 b and 25 d do not abut on the substrate 1.

As described above, the cutout pieces 23a and 23c of the shield cover 21 that are formed closer to the opening 22 than the portion where the engagement hole 28 is provided are on the surface (bottom surface) where the engagement hole 28 is provided. The surface (side surfaces 21b and 21c) different from 21a) is cut out.
If the cutout pieces 23a and 23c are formed by cutting out the same bottom surface 21a as the engagement hole 28 is provided, the cutout pieces 23a and 23c are cut out to generate the shield cover 21. The hole to be generated is generated on the same bottom surface 21a as the engagement hole 28 is formed. In that case, the notch pieces 23a and 23c are formed on the opening 22 side of the shield cover 21 from the portion where the engagement hole 28 is provided, so that the plug 10 is inserted into the receptacle 20 in the middle of insertion. Before the ten engaging protrusions 11 reach the engaging hole 28, the cutout pieces 23 a and 23 c may be cut out from the shield cover 21 to fit into the holes formed in the shield cover 21. There is.
However, in the present embodiment, the cutout pieces 23a and 23c formed on the opening 22 side of the portion of the shield cover 21 where the engagement holes 28 are provided are the surfaces on which the engagement holes 28 are provided. Since the surface (side surfaces 21b and 21c) different from the (bottom surface 21a) is cut out, such a problem does not occur.

  The receptacle 20 has an interval holding portion S that holds the interval between the portion of the shield cover 21 where the engagement hole 28 is provided and the substrate 1 at a set interval when the receptacle 20 is mounted on the substrate 1. Is provided. In the present embodiment, the interval holding unit S is configured by a spacer member 26 provided on the bottom surface 21 a of the shield cover 21 so as to be positioned between the shield cover 21 and the substrate 1. Due to the spacer member 26, the portion of the shield cover 21 where the engagement hole 28 is provided is positioned away from the substrate 1 by a set distance. In the present embodiment, the spacer member 26 is formed integrally with the housing H using a resin material or the like. The spacer member 26 extends from the rear end portion of the shield cover 21 provided with the housing H to the front opening 22. However, as shown in FIG. 4, the spacer member 26 is configured not to overlap with a portion where the engagement hole 28 is provided.

  Furthermore, the spacer member 26 has a fixing member 27 extending vertically from the bottom surface toward the substrate 1. The fixing member 27 is also formed integrally with the housing H using a resin material or the like. The fixing member 27 is inserted into the through hole 3 formed in the substrate 1, whereby the receptacle 20 is fixed to the substrate 1. Therefore, the receptacle 20 is mounted on the substrate 1 with the bottom surface of the spacer member 26 facing the substrate 1.

  Therefore, as shown in FIG. 5, the bottom surface 21 a of the shield cover 21, that is, the portion of the shield cover 21 where the engagement hole 28 is provided is held at a position away from the substrate 1 by a set distance. As a result, even if the plug 10 is inserted into the receptacle 20 in the reverse mounting form and the engagement protrusion 11 of the plug 10 is engaged with the engagement hole 28 of the shield cover 21, An interval is secured between the portion where the engagement hole 28 is provided and the substrate 1 so that the engagement protrusion 11 does not interfere with the substrate 1. Therefore, the engagement between the plug 10 and the receptacle 20 is reliably maintained.

Second Embodiment
In the connector of the second embodiment, the structure of the receptacle is different from the structure of the receptacle described in the first embodiment. The connector of the second embodiment will be described below, but the description of the same configuration as that of the first embodiment will be omitted.

  FIG. 6 is a side view of the receptacle 20 of the second embodiment, and FIG. 7 is a cross-sectional view of the receptacle 20 with the plug 10 inserted therein. As illustrated, the receptacle 20 in the connector of this embodiment does not have the spacer member 26 described in the first embodiment. That is, there is no spacer member 26 that can be used as the gap holding portion S between the shield cover 21 and the substrate 1.

  In the present embodiment, the base portions 25a and 25c of the cutout pieces 23a and 23c are formed thicker than the front end portions 24a and 24c, so that the cutout pieces 23a and 23c are partially mounted on the board 1 when the receptacle 20 is mounted on the board 1. 1 to be inserted. That is, the notch pieces 23a and 23c as the interval holding part S are formed so that the base parts 25a and 25c are thicker than the tip parts 24a and 24c, and the notch pieces 23a and 23c and the board 1 are mounted when the receptacle 20 is mounted on the board 1. And the insertion of the notch pieces 23a, 23c into the through hole 2 is prevented between the tip portions 24a, 24c and the root portions 25a, 25c. As a result, as shown in FIG. 7, the portion of the shield cover 21 where the engagement hole 28 is provided is located away from the substrate 1 by a set distance.

  Therefore, as shown in FIG. 7, the bottom surface 21 a of the shield cover 21, that is, the portion of the shield cover 21 where the engagement hole 28 is provided is held at a position away from the substrate 1 by a set distance. As a result, even if the plug 10 is inserted into the receptacle 20 in the reverse mounting form and the engagement protrusion 11 of the plug 10 is engaged with the engagement hole 28 of the shield cover 21, An interval is secured between the portion where the engagement hole 28 is provided and the substrate 1 so that the engagement protrusion 11 does not interfere with the substrate 1. Therefore, the engagement between the plug 10 and the receptacle 20 is reliably maintained.

<Another embodiment>
<1>
In the above embodiment, the example in which the engagement hole is provided only on the bottom surface of the shield cover has been described. However, the engagement hole may be additionally provided on the other surface of the shield cover. For example, engagement holes may be provided on both the bottom surface and the top surface of the shield cover. And what is necessary is just to provide an engagement protrusion in the bottom face and top surface of a plug so that it may engage with the engagement hole provided in the bottom face and top surface of a shield cover.
Moreover, although the said embodiment demonstrated the example in which two engagement holes are provided in a shield cover, the structure by which one engagement hole is provided in a shield cover, and the structure by which three or more engagement holes are provided. Is possible. In that case, an appropriate number of engaging protrusions may be provided on the plug so as to engage with an engaging hole provided in the shield cover.

<2>
In the first embodiment and the second embodiment described above, the cutout pieces 23a and 23c are formed by cutting out a surface different from the surface where the engagement hole 28 is provided on the opening side of the engagement hole 28. Although described, the same surface as the surface on which the engagement hole 28 is provided may be cut out to form the cutout pieces 23a and 23c. In that case, the shape of the engagement protrusion 11 of the plug 10, the position where the cutout pieces 23 a and 23 c are cut out, the shape of the cutout, and the like are adjusted so that the engagement protrusion 11 of the plug 10 becomes the cutout piece 23 a. , 23c may be cut out so that it does not fit into the hole formed in the shield cover 21, or even if it is fitted, it can be removed.

<3>
In the above embodiment, an example has been described in which the housing H abuts against the substrate 1 at the rear end portion of the receptacle (portions where the notch pieces 23b and 23d are provided). You may comprise so that it may not contact | connect. In this case, since the base portions 25b and 25d of the cutout pieces 23b and 23d are formed thicker than the tip portions 24b and 24d, a part of the cutout pieces 23b and 23d is mounted on the board 1 when the receptacle 20 is mounted on the board 1. 1 will be inserted. That is, the notch pieces 23b and 23d function as the spacing holding part S, and the base parts 25b and 25d are formed thicker than the tip parts 24b and 24d so that when the receptacle 20 is mounted on the substrate 1, the notch pieces 23b and 23d By interfering with the substrate 1, the insertion of the notches 23b and 23d into the through hole 2 is prevented between the tip portions 24b and 24d and the root portions 25b and 25d. As a result, the entire bottom surface 21a of the shield cover 21 is positioned away from the substrate 1 by a set distance.

  The connector according to the present invention can be used for a connector in a form in which a plug is inserted into a receptacle mounted on a substrate, which is used in various electric devices.

Receptacle perspective view Front view of receptacle Receptacle side view Bottom view of receptacle Sectional view with plug inserted into receptacle Receptacle side view Sectional view with plug inserted into receptacle

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Board | substrate 2 Through-hole 3 Through-hole 10 Plug 11 Engagement protrusion 20 Receptacle 21 Shield cover 22 Opening part 23a, 23b, 23c, 23d Notch piece 24a, 24b, 24c, 24d Tip part 25a, 25b, 25c, 25d Root part 26 Spacer member 27 Fixing member 28 Engagement hole 29 Receptacle side terminal portion H Housing S Spacing holding portion

Claims (5)

A receptacle mounted on a substrate and having an opening into which the plug is inserted, wherein the receptacle includes a housing that holds a receptacle-side terminal portion inside a cylindrical shield cover that forms the opening. A connector configured such that when the plug is inserted into the receptacle, an engagement protrusion provided in the plug is engaged with an engagement hole provided in the receptacle;
The engagement hole is provided in a portion of the shield cover facing the substrate,
A connector configured such that, in a state in which the receptacle is mounted on the substrate, a portion of the shield cover where the engagement hole is provided is located at a set distance from the substrate.   The shield cover is a cylindrical body having a rectangular cross section, and by inserting and locking a plurality of cutout pieces formed by cutting out the cylindrical body into each of a plurality of through holes provided in the substrate, The connector according to claim 1, wherein a bottom surface of the shield cover is configured to be mounted relative to the substrate.   The base part of the notch piece is formed thicker than the tip part, and a part of the notch piece is configured to be inserted into the board when the receptacle is mounted on the board. Connector.   Of the plurality of cutout pieces, the cutout piece formed on the opening side of the shield cover relative to the portion provided with the engagement hole is provided with the engagement hole. The connector according to claim 2, wherein the connector is formed by cutting out different surfaces.   The connector according to claim 1, wherein a spacer member is provided between the shield cover and the substrate.

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